Charging cabinet

Abstract

The application relates to the technical field of shared power banks, and particularly discloses a charging cabinet, which comprises a box body, a locking assembly and a suspension assembly, wherein the box body is provided with a battery compartment, a power bank can be inserted into the battery compartment along a first direction, and the power bank is provided with a locking part; the locking assembly is arranged on the box body and can move between a locking position and an unlocking position; when the locking assembly is located at the locking position, the power bank located in the battery compartment can be locked; when the locking assembly is located at the unlocking position, the power bank can be pulled out of the battery compartment; and the suspension assembly is arranged on the box body and is configured to stop the locking assembly at the unlocking position. With the above structure, the power bank is not pushed out by using a motor, on the one hand, the problem that the power bank cannot be taken out of the charging cabinet in the absence of electricity is solved; and on the other hand, the charging cabinet is prevented from being in a standby state all the time, so that energy is saved.

Description

Technical Field

[0001] This invention relates to the field of shared power bank technology, and more particularly to a charging cabinet. Background Technology

[0002] As is well known, shared power banks refer to a type of charging rental device where users can rent a power bank by scanning a QR code on the device screen or by using facial recognition, and lock and charge the power bank after it is returned.

[0003] The current working principle of shared power banks is as follows: press the power bank with your finger to trigger the unlock switch, then the motor pushes the power bank out, and finally you can take the power bank out by hand.

[0004] The main drawbacks of the above structure are as follows:

[0005] 1. The motor can only push the power bank out after the unlock switch is activated. If the power is cut off or the switch is not sensitive, the consumer will not be able to take out the power bank from the charging cabinet.

[0006] 2. It requires power to remove the power bank, and it requires power in both standby and use modes, wasting electricity. Summary of the Invention

[0007] The purpose of this invention is to provide a charging cabinet to solve the problem of not being able to take out a power bank from the charging cabinet when there is no power.

[0008] To achieve the above objectives, the present invention adopts the following technical solution:

[0009] This invention provides a charging cabinet, which includes:

[0010] The housing has a battery compartment, in which a power bank can be inserted along a first direction, and the power bank has a locking part.

[0011] A locking component is provided on the housing and can move between a locked position and an unlocked position; when the locking component is in the locked position, it can lock the power bank located in the battery compartment; when the locking component is in the unlocked position, the power bank can be pulled out of the battery compartment.

[0012] A pause component, located in the housing, is configured to stop the locking component in the unlocked position.

[0013] As a preferred technical solution for a charging cabinet, the locking assembly includes a locking slider slidably disposed on the cabinet body and a locking member disposed on the locking slider. The locking slider can slide along a second direction between the locked position and the unlocked position. The locking member is used to stop or avoid the locking part. The second direction is perpendicular to the first direction.

[0014] As a preferred technical solution for a charging cabinet, the locking assembly includes a locking elastic element, which is disposed between the locking slider and the cabinet body and is configured to stop the locking slider in the locking position.

[0015] As a preferred technical solution for a charging cabinet, the charging cabinet includes a pusher, the pusher having a first unlocking ramp, and a locking slider having a second unlocking ramp; pressing the power bank located in the battery compartment drives the pusher to move and, through the second and first unlocking ramps, moves the locking slider to the unlocked position; and / or

[0016] The locking member has a locking surface. When the power bank enters the battery compartment, it abuts against the locking surface and drives the locking slider to move to the middle position between the locking position and the unlocking position.

[0017] As a preferred technical solution for a charging cabinet, the pause component includes a pause member, which is slidably disposed on the cabinet along the first direction. When the pause member is in the pause position, it can stop the locking component in the unlock position. When the pause member is in the avoidance position, the locking stop portion of the locking component can pass over the pause member.

[0018] As a preferred technical solution for a charging cabinet, the locking stop is provided with a first pausing ramp, and the pausing component is provided with a pausing part. During the process of the locking assembly moving from the locking position to the unlocking position, the first pausing ramp abuts against the pausing part and drives the pausing component to move to the avoidance position.

[0019] As a preferred technical solution for a charging cabinet, the pause component includes a pause elastic element, which is disposed between the pause element and the cabinet body and is configured to stop the pause element at the pause position.

[0020] As a preferred technical solution for a charging cabinet, the pause component includes a pause reset member, which is slidably disposed on the cabinet along a second direction. During the process of moving the pause reset member from the initial position to the reset position, it can be driven to move to the avoidance position. The second direction is perpendicular to the first direction.

[0021] As a preferred technical solution for a charging cabinet, the pause reset component is provided with a first reset slope and a second reset slope, and the pause component is provided with a reset part. During the process of the power bank being pulled out of the battery compartment, the locking part can push against the first reset slope, and at the same time, the second reset slope can push against the reset part.

[0022] As a preferred technical solution for a charging cabinet, the pause reset component further includes a third reset ramp. During the process of inserting the power bank into the battery compartment, it can push against the third reset ramp and drive the pause reset component to move to the reset position.

[0023] The beneficial effects of this invention are as follows:

[0024] This invention provides a charging cabinet that, through the configuration of a locking component and a pausing component, allows the locking component to be in the unlocked position while the pausing component is in the pausing position, thus stopping the locking component in the unlocked position. At this time, the power bank can be pulled out from the battery compartment. This structural design avoids the need for a motor to push the power bank out, solving the problem of not being able to retrieve the power bank from the charging cabinet when there is no power; furthermore, it prevents the charging cabinet from remaining in standby mode, saving energy. Attached Figure Description

[0025] Figure 1 This is a schematic diagram of the charging cabinet in an embodiment of the present invention;

[0026] Figure 2 This is a schematic diagram of the locking component in the locking position in an embodiment of the present invention;

[0027] Figure 3 This is a schematic diagram of the locking component in the unlocking position in an embodiment of the present invention;

[0028] Figure 4 This is a three-dimensional structural diagram of the locking component in the locking position according to an embodiment of the present invention.

[0029] In the picture:

[0030] X, first direction; Y, second direction;

[0031] 100. Power bank; 101. Locking part;

[0032] 1. Box body;

[0033] 2. Locking assembly; 21. Locking slider; 22. Locking component; 221. Locking fixing part; 222. Locking tongue; 2221. Locking face; 223. Locking stop part; 2231. First stopping slope; 23. Locking elastic element;

[0034] 3. Pause assembly; 31. Pause component; 311. Pause section; 312. Reset section; 32. Pause elastic component; 33. Pause reset component; 331. First reset inclined surface; 332. Second reset inclined surface; 333. Third reset inclined surface;

[0035] 4. Pushing component; 41. Pushing part; 411. Receiving groove; 42. Support part; 43. Pushing elastic component. Detailed Implementation

[0036] The technical solution of the present invention will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0037] In the description of this invention, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing the invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance. The terms "first position" and "second position" refer to two different positions. Furthermore, "above," "on top of," and "over" the first feature in relation to the second feature includes the first feature directly above and diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "under," and "below" the first feature in relation to the second feature includes the first feature directly below and diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

[0038] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.

[0039] Embodiments of the present invention are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention.

[0040] like Figure 1-4 As shown, this embodiment provides a charging cabinet, which includes a housing 1, a locking component 2, and a pausing component 3. The housing 1 has a battery compartment, in which a power bank 100 can be inserted along a first direction X. The power bank 100 has a locking part 101. The locking component 2 is located on the housing 1 and can move between a locked position and an unlocked position. When the locking component 2 is in the locked position, it can lock the power bank 100 located in the battery compartment. When the locking component 2 is in the unlocked position, the power bank 100 can be pulled out of the battery compartment. The pausing component 3 is located on the housing 1 and is configured to stop the locking component 2 in the unlocked position.

[0041] By using the above-mentioned structure, the need to use a motor to push out the power bank 100 is avoided. On the one hand, this solves the problem of not being able to take the power bank 100 out of the charging cabinet when there is no power. On the other hand, it avoids the charging cabinet being in standby mode all the time, thus saving energy.

[0042] In this embodiment, the locking part 101 of the power bank 100 may include a locking groove, the sidewall of which is used to cooperate with the locking component 2 to realize the locking action of the power bank 100. When the locking component 2 is in the locked position, it is partially located in the locking groove. Locking parts 101 are provided on both the left and right sides of the power bank 100, and two sets of locking components 2 and pausing components 3 are provided, respectively located on the left and right sides of the power bank 100. In this embodiment, the charging cabinet can be provided with multiple battery compartments, and each battery compartment can hold one power bank.

[0043] The locking assembly 2 includes a locking slider 21 slidably mounted on the housing 1 and a locking member 22 mounted on the locking slider 21. The locking slider 21 can slide along a second direction Y between a locked position and an unlocked position. The locking member 22 is used to stop or avoid the locking part 101. The second direction Y is perpendicular to the first direction X. The above arrangement can lock the power bank 100, and the sliding locking slider 21 has a simple structure and simple and reliable operation. Of course, in other embodiments, the locking slider 21 can be rotatably mounted on the housing 1. However, considering the simplicity of movement, this embodiment is described with the locking slider 21 slidably mounted on the housing 1.

[0044] In one embodiment, the locking assembly 2 further includes a locking elastic element 23, which is disposed between the locking slider 21 and the housing 1 and configured to stop the locking slider 21 in the locked position. The locking elastic element 23 includes a spring, and the locking slider 21 has a mounting groove. One end of the locking elastic element 23 is disposed in the mounting groove, and the other end abuts against the side wall of the housing 1. The locking elastic element 23 ensures that the locking slider 21 tends to move towards the locked position, thus guaranteeing the reliability of the locking action of the locking assembly 2.

[0045] In embodiments with multiple battery compartments, the locking elastic element 23 in the corresponding locking components 2 of the left and right adjacent battery compartments can share one. Specifically, when there are two battery compartments arranged side by side, three locking elastic elements 23 can be provided in the four locking components 2. The locking sliders 21 of the two middle locking components 2 can share one locking elastic element 23. In this case, the partition between the two parallel battery compartments is provided with a through hole, through which the shared locking elastic element 23 passes.

[0046] To improve unlocking efficiency, this embodiment employs a push-type unlocking method. Specifically, the charging cabinet includes a pusher 4 with a first unlocking ramp and a locking slider 21 with a second unlocking ramp. Pressing the power bank 100 located in the battery compartment drives the pusher 4 to move and, through the second and first unlocking ramps, moves the locking slider 21 to the unlock position. The locking member 22 has a locking surface 2221. When the power bank 100 enters the battery compartment, it abuts against the locking surface 2221 and drives the locking slider 21 to move to the intermediate position between the locked and unlocked positions. With the above structure, when the power bank 100 is pressed along direction A, the pusher 4 drives the two locking sliders 21 to move along direction C to the unlock position, thereby allowing the pausing component 3 to pause the locking component 2, stopping the locking component 2 in the unlock position.

[0047] To facilitate the removal of the power bank 100 from the battery compartment, this embodiment of the charging cabinet also includes a push-off elastic member 43. The push-off elastic member 43 is disposed between the housing 1 and the push-off member 4, preferably between the housing 1 and the push-off member 4, to keep the push-off member 4 away from the bottom of the battery compartment, thereby facilitating the ejection of the power bank 100 from the battery compartment. When the power bank 100 is not pressed, the push-off elastic member 43 is in a compressed state. When the two locking sliders 21 move along the C direction to the unlocked position, the compression of the push-off elastic member 43 further increases. The push-off elastic member 43 allows the power bank 100 to be ejected from the battery compartment, ensuring that the total length of the power bank 100 is less than the depth of the battery compartment, thus reducing the cost of the charging cabinet.

[0048] The push-off part 41 is provided with a receiving groove 411, and the push-off elastic member 43 includes a spring. When the spring is compressed, it can be completely located within the receiving groove 411. Under the premise of a fixed length of power bank 100, the depth of the battery compartment is minimized to save costs.

[0049] To ensure the stability of the charging process, the power bank 100 is provided with a first charging terminal at the end near the battery compartment. Therefore, a second charging terminal is provided at the end of the pusher 4 near the power bank 100. Under the action of the pusher elastic member 43, the first charging terminal and the second charging terminal are tightly engaged to ensure a stable connection between the first charging terminal and the second charging terminal.

[0050] In this embodiment, the pushing member 4 includes a pushing part 41 and a support part 42 disposed at one end of the pushing part 41. A first unlocking inclined surface is disposed on the pushing part 41. The support part 42 is used to abut against the end face of the power bank 100. The cross-sectional area of ​​the support part 42 is smaller than the cross-sectional area of ​​the pushing part 41. A second charging terminal is disposed on the support part 42. On the one hand, this helps to increase the pressure generated when the second charging terminal and the first charging terminal abut against each other, making it more secure and stable. On the other hand, it reduces the thickness of the pushing part 41, reduces the amount of material used, and lowers the cost.

[0051] Multiple support parts 42 are provided, and the multiple support parts 42 are spaced apart at one end of the pusher 4. A second charging terminal is provided on one of the support parts 42, while the other support parts 42 are not provided with a second charging terminal. The above arrangement can prevent the power bank 100 from tilting and causing the second charging terminal and the first charging terminal to separate, which is conducive to ensuring a stable connection between the second charging terminal and the first charging terminal.

[0052] Optionally, the first charging terminal includes a first positive terminal and a first negative terminal, and the second charging terminal includes a second positive terminal and a second negative terminal; one of the support portions 42 is provided with the second positive terminal and the second negative terminal; or one of the two support portions 42 is provided with the second positive terminal and the other is provided with the second negative terminal, with the first positive terminal and the second positive terminal facing each other, and the first negative terminal and the second negative terminal facing each other.

[0053] Regarding the structure of the pause component 3, in this embodiment, the pause component 3 includes a pause member 31. The pause member 31 can slide along the first direction X on the housing 1 between a pause position and a clearance position. When the pause member 31 is in the pause position, it can stop the locking slider 21 in the unlock position. When the pause member 31 is in the clearance position, the locking stop portion 223 of the locking member 22 can pass over the pause member 31. The locking member 22 includes a locking fixing portion 221 disposed on the locking tongue 222 and the locking stop portion 223 of the locking fixing portion 221. The locking fixing portion 221 extends along the first direction X, and the locking stop portion 223 is located on the extension line of the locking fixing portion 221. The locking tongue 222 is located between the locking stop portion 223 and the locking fixing portion 221, and the locking tongue 222 is perpendicular to the locking fixing portion 221. The lock surface 2221 is disposed on the locking tongue 222, and the locking fixing portion 221 is connected to the locking slider 21.

[0054] The locking stop 223 is provided with a first pausing ramp 2231, and the pausing member 31 is provided with a pausing part 311. During the process of the locking slider 21 moving from the locked position to the unlocked position, the first pausing ramp 2231 abuts against the pausing part 311 and drives the pausing member 31 from the pausing position to the avoidance position. The above structure allows the locking slider 21 to be in the unlocked position while driving the pausing member 31 to move to the avoidance position, improving the linkage between the locking component 2 and the pausing component 3 of the charging cabinet and reducing the difficulty of operation.

[0055] The pause section 311 includes a second pause slope, which is inclined along direction B towards the power bank 100 and is parallel to the first pause slope 2231. Alternatively, in other embodiments, the pause section 311 may be a cylindrical structure.

[0056] To enable the automatic reset of the pause component 3, in this embodiment, the pause component 3 further includes a pause elastic element 32. The pause elastic element 32 is disposed between the pause component 31 and the housing 1 and is configured to stop the pause component 31 in the pause position. This configuration allows the locking stop 223 of the locking component 2 to pass over the pause part 311 when the pause component 31 is in the avoidance position. Then, under the action of the pause elastic element 32, the pause part 311 can move from the avoidance position to the pause position. At this time, the locking stop 223 is stopped, causing the locking slider 21 to stop in the unlock position. That is, a single press of the power bank 100 achieves the linkage between the locking component 2 and the pause component 3, causing the locking component 2 to stop in the unlock position.

[0057] The pause component 3 includes a pause reset member 33, which is slidably disposed on the housing 1 along the second direction Y between the initial position and the reset position. When the pause reset member 33 is in the reset position, it can drive the pause member 31 to move to the avoidance position. The setting of the pause reset member 33 allows the pause member 31 to move to the avoidance position, thereby causing the locking stop 223 to move from the unlocked position to the locked position. This prepares for the next insertion and locking of the power bank 100. Of course, in other embodiments, the action of locking the power bank 100 by the locking tongue 222 after the next insertion into the battery compartment can be accomplished by other components on the power bank 100. However, the structure in the above embodiment ensures that after the power bank 100 is pulled out, the locking component 2 is in the locked position. At this time, all elastic members are in the most relaxed state, which is beneficial to the service life of the device.

[0058] The pause reset member 33 is provided with a first reset ramp 331 and a second reset ramp 332. Both the first reset ramp 331 and the second reset ramp 332 are located away from the pause member 31 along the opening direction of the battery compartment. The pause member 31 is provided with a reset part 312. During the process of the power bank 100 being pulled out of the battery compartment, the locking part 101 can push against the first reset ramp 331 and drive the pause reset member 33 to move from the initial position to the reset position. At the same time, the second reset ramp 332 drives the reset part 312 and drives the pause member 31 to move to the avoidance position. The reset part 312 is located on the side of the pause part 311 away from the locking tongue 222. The arrangement of the two reset ramps realizes the driving of the pause member 31 along the B direction during the movement of the pause reset member 33 along the D direction.

[0059] The reset part 312 includes a reset surface, wherein the reset surface is located away from and close to the power bank 100 along the B direction, or in another embodiment of this embodiment, the reset part 312 is a cylindrical structure.

[0060] When the locking part 101 abuts against the first reset surface, it has already passed the locking tongue 222 of the locking member 22. When the pausing member 31 moves to the avoidance position, the locking part 101 has already passed the locking member 22, and the locking stop part 223 of the locking assembly 2 can pass the pausing member 31. Then, the power bank 100 pulls out of the battery compartment, and under the action of the locking elastic member 23, the locking slider 21 can move from the unlocked position to the locked position. Since the locking part 101 has already passed the locking member 22 when it abuts against the first reset inclined surface 331, the locking member 22 on the locking slider 21, which has moved to the locked position, can no longer lock the power bank 100.

[0061] The pause reset component 33 also includes a third reset inclined surface 333. During the insertion of the power bank 100 into the battery compartment, the third reset inclined surface 333 pushes against the third reset inclined surface 333, driving the pause reset component 33 to move to the reset position. When the pause reset component 33 enters the locking groove, it moves to its initial position under the action of the pause elastic component 32. This structure prevents the pause reset component 33 from obstructing the insertion of the power bank 100 into the battery compartment.

[0062] The working principle of pulling out the 100mAh power bank from the battery compartment is as follows:

[0063] First, press the power bank 100, which is in the locked state inside the battery compartment, along direction A. The power bank 100 squeezes the pusher 4. Under the action of the inclined surface, the pusher 4 drives the two locking sliders 21 to move along direction C and move together with the two locking parts 22 to the unlock position, so that the locking tongue 222 leaves the locking groove and completes the unlocking action. At the same time, the first pausing inclined surface 2231 of the locking stop part 223 drives the pausing part 311, so that the pausing part 31 moves along direction B to the avoidance position. The locking stop part 223 continues to move along direction C to bypass the pausing part 311. Then, under the action of the pausing elastic part 32, the pausing part 31 returns to the pausing position along direction A. At this time, after releasing the hand, the pausing part 311 stops the locking stop part 223, so that the locking slider 21 stops in the unlock position.

[0064] In the second step, under the action of the pushing elastic member 43 and the action of pulling, the power bank 100 is ejected a certain distance along the B direction and finally leaves the battery compartment. During the process of the power bank 100 being pulled out of the battery compartment, the locking part 101 first passes the locking tongue 222 and then abuts against the first reset slope 331 of the pause reset member 33. The two pause reset members 33 move along the C direction respectively. At the same time, the second reset slope 332 drives the reset part 312, so that the pause member 31 moves along the B direction to the avoidance position. At this time, under the action of the locking elastic member 23, the locking stop part 223 bypasses the pause part 311 and finally moves along the D direction to the locking position together with the locking slider 21. After the locking part 101 passes the pause reset member 33, under the action of the pause elastic member 32, the pause member 31 moves along the A direction to the pause position, and the pause reset member 33 is driven by the reset part 312 along the D direction to the initial position under the action of the second reset slope 332.

[0065] When the power bank 100 is inserted into the battery compartment again along direction A, the locking part 101 first abuts against the third reset inclined surface 333, causing the pause reset member 33 to move along direction C. After the locking part 101 passes the pause reset member 33, the pause reset member 33 moves to the initial position along direction D under the action of the pause member 31 and the pause elastic member 32. Then, the locking part 101 contacts the locking surface 2221 on the lock tongue 222 and passes over the lock tongue 222. During this process, the locking slider 21 moves to the middle position along direction C and returns to the locking position along direction D. At this time, the action of inserting the power bank 100 into the battery compartment is completed. It should be noted that during this process, the pause member 31 moves along direction B but does not move to the avoidance position, and returns to the pause position along direction A under the action of the pause elastic member 32.

[0066] Obviously, the above embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the implementation of the present invention. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively describe all embodiments here. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present invention should be included within the scope of protection of the claims of the present invention.

Claims

1. A charging cabinet, characterized in that, include: The box (1) is provided with a battery compartment, and a power bank (100) can be inserted into the battery compartment along the first direction (X). The power bank (100) is provided with a locking part (101). A locking component (2) is provided on the housing (1) and can move between a locked position and an unlocked position; when the locking component (2) is in the locked position, it can lock the power bank (100) located in the battery compartment; when the locking component (2) is in the unlocked position, the power bank (100) can be pulled out from the battery compartment. A pause component (3) is disposed in the housing (1) and configured to stop the locking component (2) in the unlocked position; The locking assembly (2) includes a locking slider (21) slidably disposed on the housing (1) and a locking member (22) disposed on the locking slider (21). The locking slider (21) can slide along a second direction (Y) between the locked position and the unlocked position. The locking member (22) is used to stop or avoid the locking part (101). The second direction (Y) is perpendicular to the first direction (X). The pause component (3) includes a pause member (31), which is slidably disposed on the housing (1) along the first direction (X). When the pause member (31) is in the pause position, it can stop the locking component (2) in the unlock position. When the pause member (31) is in the avoidance position, the locking stop (223) of the locking component (2) can pass over the pause member (31). The locking stop (223) is provided with a first pausing ramp (2231), and the pausing member (31) is provided with a pausing part (311). During the process of the locking assembly (2) moving from the locking position to the unlocking position, the first pausing ramp (2231) abuts against the pausing part (311) and drives the pausing member (31) to move to the avoidance position.

2. The charging cabinet according to claim 1, characterized in that, The locking assembly (2) includes a locking elastic element (23) disposed between the locking slider (21) and the housing (1) and configured to stop the locking slider (21) in the locking position.

3. The charging cabinet according to claim 1, characterized in that, The charging cabinet includes a pusher (4), the pusher (4) having a first unlocking ramp, and the locking slider (21) having a second unlocking ramp; pressing the power bank (100) located in the battery compartment can drive the pusher (4) to move and, through the second unlocking ramp and the first unlocking ramp, drive the locking slider (21) to the unlocking position; and / or The locking member (22) has a locking surface (2221). When the power bank (100) enters the battery compartment, it abuts against the locking surface (2221) and drives the locking slider (21) to move to the middle position between the locking position and the unlocking position.

4. The charging cabinet according to claim 1, characterized in that, The pause component (3) includes a pause elastic element (32) disposed between the pause member (31) and the housing (1) and configured to stop the pause member (31) at the pause position.

5. The charging cabinet according to claim 1, characterized in that, The pause component (3) includes a pause reset component (33), which is slidably disposed on the housing (1) along the second direction (Y). During the process of the pause reset component (33) moving from the initial position to the reset position, it can drive the pause component (31) to move to the avoidance position. The second direction (Y) is perpendicular to the first direction (X).

6. The charging cabinet according to claim 5, characterized in that, The pause reset component (33) is provided with a first reset slope (331) and a second reset slope (332). The pause component (31) is provided with a reset part (312). During the process of the power bank (100) being pulled out of the battery compartment, the locking part (101) can push against the first reset slope (331), and at the same time, the second reset slope (332) can push against the reset part (312).

7. The charging cabinet according to claim 5, characterized in that, The pause reset component (33) also includes a third reset ramp (333). When the power bank (100) is inserted into the battery compartment, it can push against the third reset ramp (333) and drive the pause reset component (33) to move to the reset position.

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